河南理工大学学报:自然科学版
河南理工大學學報:自然科學版
하남리공대학학보:자연과학판
JOURNAL OF HENAN POLYTECHNIC UNIVERSITY
2011年
5期
613-616
,共4页
镉%石墨炉原子吸收光谱%环境水样
鎘%石墨爐原子吸收光譜%環境水樣
력%석묵로원자흡수광보%배경수양
Cadmium%graphite furnace atomic absorption spectrometry%water samples
提出了一种石墨炉原子吸收光谱法测定环境水样中痕量镉的新方法.详细研究了石墨炉的灰化、原子化温度及时间,对环境水样中常见共存离子的影响进行了考察.在最优的试验条件下,新方法的检出限为0.13ng/mL,相对标准偏差为3.1%(c=2.0ng/mL,n=7),方法的线性范围为0-10ng/mL.新方法应用于环境水样中镉的测定,样品加标回收率为94.9%~107.5%.同时,为了验证方法的准确性,将所提出的新方法应用于标准参考物GBW08608中镉的分析,测定结果与标准参考值吻合良好.
提齣瞭一種石墨爐原子吸收光譜法測定環境水樣中痕量鎘的新方法.詳細研究瞭石墨爐的灰化、原子化溫度及時間,對環境水樣中常見共存離子的影響進行瞭攷察.在最優的試驗條件下,新方法的檢齣限為0.13ng/mL,相對標準偏差為3.1%(c=2.0ng/mL,n=7),方法的線性範圍為0-10ng/mL.新方法應用于環境水樣中鎘的測定,樣品加標迴收率為94.9%~107.5%.同時,為瞭驗證方法的準確性,將所提齣的新方法應用于標準參攷物GBW08608中鎘的分析,測定結果與標準參攷值吻閤良好.
제출료일충석묵로원자흡수광보법측정배경수양중흔량력적신방법.상세연구료석묵로적회화、원자화온도급시간,대배경수양중상견공존리자적영향진행료고찰.재최우적시험조건하,신방법적검출한위0.13ng/mL,상대표준편차위3.1%(c=2.0ng/mL,n=7),방법적선성범위위0-10ng/mL.신방법응용우배경수양중력적측정,양품가표회수솔위94.9%~107.5%.동시,위료험증방법적준학성,장소제출적신방법응용우표준삼고물GBW08608중력적분석,측정결과여표준삼고치문합량호.
A new method for the determination of cadmium (Cd) in water samples tested by graphite furnace atomic absorption spectrometry (GFAAS) was developed. Ashing temperature and time, atomization temperature and time, the effect of potential interference of coexisting ions on the determination of Cd were investigated in detail. Under the optimized conditions, the limit of detection (LOD) for Cd was 0. 13 ng/mL, the pre- cision relative standard deviation (RSD) for seven replicate measurements of 2.0 ng/mL Cd was 3.1% , and the calibration curve was obtained with a series of Cd standard solutions ranged in 0 - 10 ng/mL. The developed method was applied to the determination of Cd in water samples and the recoveries for the spiked samples were in the range of 94.9% - 107.5%. For validation, the developed method was also applied to the determination of Cd in a certified reference material of GBW08608 and the determined value was in good agreement with the certified one.